X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FTests%2FGrid.hs;h=e30ae4a6d4f124228eae0173e5e024f46fcb90ba;hb=f523e553956c11962c25dac6e9521aeb7f13025e;hp=d06e1e96732a07f1852a8e4913e050f49b616cd5;hpb=cb5b361ea78acd6f8c04cd864adc15edd90299db;p=spline3.git diff --git a/src/Tests/Grid.hs b/src/Tests/Grid.hs index d06e1e9..e30ae4a 100644 --- a/src/Tests/Grid.hs +++ b/src/Tests/Grid.hs @@ -19,29 +19,41 @@ import ThreeDimensional -- | Check all coefficients of tetrahedron0 belonging to the cube -- centered on (1,1,1) with a grid constructed from the trilinear -- values. See example one in the paper. -trilinear_c0_t0_coefficient_tests :: Test.Framework.Test -trilinear_c0_t0_coefficient_tests = - testGroup "trilinear c0 t0 coefficients" - [testCase "c0030 is correct" test_trilinear_c0030, - testCase "c0003 is correct" test_trilinear_c0003, - testCase "c0021 is correct" test_trilinear_c0021, - testCase "c0012 is correct" test_trilinear_c0012, - testCase "c0120 is correct" test_trilinear_c0120, - testCase "c0102 is correct" test_trilinear_c0102, - testCase "c0111 is correct" test_trilinear_c0111, - testCase "c0210 is correct" test_trilinear_c0210, - testCase "c0201 is correct" test_trilinear_c0201, - testCase "c0300 is correct" test_trilinear_c0300, - testCase "c1020 is correct" test_trilinear_c1020, - testCase "c1002 is correct" test_trilinear_c1002, - testCase "c1011 is correct" test_trilinear_c1011, - testCase "c1110 is correct" test_trilinear_c1110, - testCase "c1101 is correct" test_trilinear_c1101, - testCase "c1200 is correct" test_trilinear_c1200, - testCase "c2010 is correct" test_trilinear_c2010, - testCase "c2001 is correct" test_trilinear_c2001, - testCase "c2100 is correct" test_trilinear_c2100, - testCase "c3000 is correct" test_trilinear_c3000] +-- +-- We also verify that the four vertices on face0 of the cube are +-- in the correct location. +-- +trilinear_c0_t0_tests :: Test.Framework.Test +trilinear_c0_t0_tests = + testGroup "trilinear c0 t0" + [testGroup "coefficients" + [testCase "c0030 is correct" test_trilinear_c0030, + testCase "c0003 is correct" test_trilinear_c0003, + testCase "c0021 is correct" test_trilinear_c0021, + testCase "c0012 is correct" test_trilinear_c0012, + testCase "c0120 is correct" test_trilinear_c0120, + testCase "c0102 is correct" test_trilinear_c0102, + testCase "c0111 is correct" test_trilinear_c0111, + testCase "c0210 is correct" test_trilinear_c0210, + testCase "c0201 is correct" test_trilinear_c0201, + testCase "c0300 is correct" test_trilinear_c0300, + testCase "c1020 is correct" test_trilinear_c1020, + testCase "c1002 is correct" test_trilinear_c1002, + testCase "c1011 is correct" test_trilinear_c1011, + testCase "c1110 is correct" test_trilinear_c1110, + testCase "c1101 is correct" test_trilinear_c1101, + testCase "c1200 is correct" test_trilinear_c1200, + testCase "c2010 is correct" test_trilinear_c2010, + testCase "c2001 is correct" test_trilinear_c2001, + testCase "c2100 is correct" test_trilinear_c2100, + testCase "c3000 is correct" test_trilinear_c3000], + + testGroup "face0 vertices" + [testCase "v0 is correct" test_trilinear_f0_t0_v0, + testCase "v1 is correct" test_trilinear_f0_t0_v1, + testCase "v2 is correct" test_trilinear_f0_t0_v2, + testCase "v3 is correct" test_trilinear_f0_t0_v3] + ] where g = make_grid 1 trilinear cube = cube_at g 1 1 1 @@ -127,53 +139,21 @@ trilinear_c0_t0_coefficient_tests = test_trilinear_c3000 = assertAlmostEqual "c3000 is correct" (c t 3 0 0 0) 4 + test_trilinear_f0_t0_v0 :: Assertion + test_trilinear_f0_t0_v0 = + assertEqual "v0 is correct" (v0 t) (1, 1, 1) + + test_trilinear_f0_t0_v1 :: Assertion + test_trilinear_f0_t0_v1 = + assertEqual "v1 is correct" (v1 t) (0.5, 1, 1) + + test_trilinear_f0_t0_v2 :: Assertion + test_trilinear_f0_t0_v2 = + assertEqual "v2 is correct" (v2 t) (0.5, 0.5, 1.5) --- | Make sure that v0 of tetrahedron0 belonging to the cube centered --- on (1,1,1) with a grid constructed from the trilinear values --- winds up in the right place. See example one in the paper. -test_trilinear_f0_t0_v0 :: Assertion -test_trilinear_f0_t0_v0 = - assertEqual "v0 is correct" (v0 t) (1, 1, 1) - where - g = make_grid 1 trilinear - cube = cube_at g 1 1 1 - t = tetrahedron0 cube - - --- | Make sure that v1 of tetrahedron0 belonging to the cube centered --- on (1,1,1) with a grid constructed from the trilinear values --- winds up in the right place. See example one in the paper. -test_trilinear_f0_t0_v1 :: Assertion -test_trilinear_f0_t0_v1 = - assertEqual "v1 is correct" (v1 t) (0.5, 1, 1) - where - g = make_grid 1 trilinear - cube = cube_at g 1 1 1 - t = tetrahedron0 cube - - --- | Make sure that v2 of tetrahedron0 belonging to the cube centered --- on (1,1,1) with a grid constructed from the trilinear values --- winds up in the right place. See example one in the paper. -test_trilinear_f0_t0_v2 :: Assertion -test_trilinear_f0_t0_v2 = - assertEqual "v2 is correct" (v2 t) (0.5, 0.5, 1.5) - where - g = make_grid 1 trilinear - cube = cube_at g 1 1 1 - t = tetrahedron0 cube - - --- | Make sure that v3 of tetrahedron0 belonging to the cube centered --- on (1,1,1) with a grid constructed from the trilinear values --- winds up in the right place. See example one in the paper. -test_trilinear_f0_t0_v3 :: Assertion -test_trilinear_f0_t0_v3 = - assertClose "v3 is correct" (v3 t) (0.5, 1.5, 1.5) - where - g = make_grid 1 trilinear - cube = cube_at g 1 1 1 - t = tetrahedron0 cube + test_trilinear_f0_t0_v3 :: Assertion + test_trilinear_f0_t0_v3 = + assertClose "v3 is correct" (v3 t) (0.5, 1.5, 1.5) test_trilinear_reproduced :: Assertion